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81.
Asparouh I. Iliev Jasmin Roya Djannatian Felipe Opazo Joachim Gerber Roland Nau Timothy J. Mitchell Fred S. Wouters 《Molecular microbiology》2009,71(2):461-477
Streptococcus pneumoniae is the most frequent cause of bacterial meningitis, leading to permanent neurological damage in 30% and lethal outcome in 25% of patients. The cholesterol-dependent cytolysin pneumolysin is a major virulence factor of S. pneumoniae . It produces rapid cell lysis at higher concentrations or apoptosis at lower concentrations. Here, we show that sublytic amounts of pneumolysin produce rapid bundling and increased acetylation of microtubules (signs of excessive microtubule stabilization) in various types of cells – neuroblastoma cells, fibroblasts and primary astrocytes. The bundling started perinuclearly and extended peripherally towards the membrane. The effect was not connected to pneumolysin's capacity to mediate calcium influx, macropore formation, apoptosis, or RhoA and Rac1 activation. Cellular cholesterol depletion and neutralization of the toxin by pre-incubation with cholesterol completely inhibited the microtubule phenotype. Pharmacological inhibition of Src-family kinases diminished microtubule bundling, suggesting their involvement in the process. The relevance of microtubule stabilization to meningitis was confirmed in an experimental pneumococcal meningitis animal model, where increased acetylation was observed. Live imaging experiments demonstrated a decrease in organelle motility after toxin challenge in a manner comparable to the microtubule-stabilizing agent taxol, thus proposing a possible pathogenic mechanism that might contribute to the CNS damage in pneumococcal meningitis. 相似文献
82.
83.
Matthias Gralle Michelle Gralle Botelho Fred S. Wouters 《The Journal of biological chemistry》2009,284(22):15016-15025
The amyloid precursor protein (APP) is implied both in cell growth and
differentiation and in neurodegenerative processes in Alzheimer disease.
Regulated proteolysis of APP generates biologically active fragments such as
the neuroprotective secreted ectodomain sAPPα and the neurotoxic
β-amyloid peptide. Furthermore, it has been suggested that the intact
transmembrane APP plays a signaling role, which might be important for both
normal synaptic plasticity and neuronal dysfunction in dementia. To understand
APP signaling, we tracked single molecules of APP using quantum dots and
quantitated APP homodimerization using fluorescence lifetime imaging
microscopy for the detection of Förster resonance energy transfer in
living neuroblastoma cells. Using selective labeling with synthetic
fluorophores, we show that the dimerization of APP is considerably higher at
the plasma membrane than in intracellular membranes. Heparan sulfate
significantly contributes to the almost complete dimerization of APP at the
plasma membrane. Importantly, this technique for the first time structurally
defines the initiation of APP signaling by binding of a relevant physiological
extracellular ligand; our results indicate APP as receptor for neuroprotective
sAPPα, as sAPPα binding disrupts APP dimers, and this disruption
of APP dimers by sAPPα is necessary for the protection of neuroblastoma
cells against starvation-induced cell death. Only cells expressing reversibly
dimerized wild-type, but not covalently dimerized mutant APP are protected by
sAPPα. These findings suggest a potentially beneficial effect of
increasing sAPPα production or disrupting APP dimers for neuronal
survival.The amyloid precursor protein
(APP)4 is known both
for its important role in the development and plasticity of the nervous system
(1–6)
and for its involvement in Alzheimer disease (AD)
(7,
8). Despite intensive research
efforts, the initial events that lead to the prevalent sporadic, i.e.
non-familial, forms of AD are still unclear. Furthermore, although a higher
gene dose of APP (9) or the
presence of pathological APP mutations is sufficient to induce familial AD
(for review, see Ref. 10), the
exact pathological mechanism that is triggered by APP is still under
debate.Some fragments of APP, such as the β-amyloid peptide (Aβ), are
thought to contribute to synaptic dysfunction and neurotoxicity
(11,
12). On the other hand, the
α-secretase-derived extracellular fragment of APP (sAPPα), which
is present at lower levels in AD patients than in controls
(13), has been shown to be
beneficial for memory function, to possess neuroprotective properties, and to
counteract the effects of Aβ
(14–18).Signaling by transmembrane APP may directly contribute to neurodegeneration
in AD
(19–24);
however, the signal transduction pathway for transmembrane APP remains
unknown, although several potential regulatory proteins, glycosaminoglycans,
and metal ions are known to bind with high affinity to APP and sAPPα
(25,
26). The most common form of
signal transduction for single-pass transmembrane proteins is the
ligand-induced perturbation of a monomer/dimer equilibrium. Indeed, the
dimerization of transmembrane APP has been implied several times in the past.
Several studies have investigated the effects of presumed dimer-breaking
perturbations on biological read-outs, such as the production of Aβ
(27,
28), but without directly
measuring the APP aggregation state, or have investigated the aggregation
state of APP subdomains, often reconstituted in cell-free systems
(27–32).
Dimerization interfaces in both the extracellular and the transmembrane domain
have been suggested.In the studies investigating the aggregation state of full-length APP, most
of the employed methods, such as chemical cross-linking and
co-immunoprecipitation, do not lend themselves readily to a rigorous
quantitative analysis of the abundance of potentially instable dimers
(31,
33), whereas in other cases
the use of chimeras may have influenced the dimerization potential or
precluded the search for a natural stimulus
(23,
34). The only previously
reported direct observation of APP dimerization by Förster resonance
energy transfer (FRET) microscopy uses an assay in which the FRET efficiency
varies with the level of overexpression
(35). Therefore, a
concentration-dependent FRET component due to nonspecific stochastic
encounters cannot be excluded in this study.Most importantly, as none of the published procedures permitted the
selective detection of APP dimers on the surface of live cells, where they
would encounter ligands, they could not differentiate between subpopulations
of APP. This may be one reason why no natural ligand of APP has ever been
shown to signal via modulation of its monomer/dimer equilibrium.Another elusive goal is the identity of the receptor for neuroprotective
sAPPα
(36–39).
The ligand-dependent dimerization of sAPPα in solution
(40) and its origination from
transmembrane APP suggest that APP might serve as receptor for sAPPα,
but this binding has never been experimentally shown. 相似文献
84.
Rogier M. Thurlings Carla A. Wijbrandts Roelof J. Bennink Serge E. Dohmen Carlijn Voermans Diana Wouters Elena S. Izmailova Danielle M. Gerlag Berthe L. F. van Eck-Smit Paul P. Tak 《PloS one》2009,4(11)
Background
Macrophages are principal drivers of synovial inflammation in rheumatoid arthritis (RA), a prototype immune-mediated inflammatory disease. Conceivably, synovial macrophages are continuously replaced by circulating monocytes in RA. Animal studies from the 1960s suggested that macrophage replacement by monocytes is a slow process in chronic inflammatory lesions. Translation of these data into the human condition has been hampered by the lack of available techniques to analyze monocyte migration in man.Methods/Principal Findings
We developed a technique that enabled us to analyze the migration of labelled autologous monocytes in RA patients using single photon emission computer tomography (SPECT). We isolated CD14+ monocytes by CliniMACS in 8 patients and labeled these with technetium-99m (99mTc-HMPAO). Monocytes were re-infused into the same patient. Using SPECT we calculated that a very small but specific fraction of 3.4×10−3 (0.95−5.1×10−3) % of re-infused monocytes migrated to the inflamed joints, being detectable within one hour after re-infusion.Conclusions/Significance
The results indicate monocytes migrate continuously into the inflamed synovial tissue of RA patients, but at a slow macrophage-replacement rate. This suggests that the rapid decrease in synovial macrophages that occurs after antirheumatic treatment might rather be explained by an alteration in macrophage retention than in monocyte influx and that RA might be particularly sensitive to treatments targeting inflammatory cell retention. 相似文献85.
Frédérick R Charlier C Robert S Wouters J Masereel B Pochet L 《Bioorganic & medicinal chemistry letters》2006,16(7):2017-2021
The synthesis of novel coumarins bearing on the lateral side chain in the 3-position an amine or a guanidine group is described. In vitro evaluation highlighted 14d which possesses a meta aniline side chain as a very potent THR inhibitor. Surprisingly, the introduction of a guanidine moiety always led to a decrease in THR inhibiting properties. We, thus, used docking experiments to rationalize the SAR in the series. This study showed the crucial role of a conserved water molecule in the specificity pocket of THR during docking simulation in order to explain the inactivity of guanidine derivatives. 相似文献
86.
Michaux C Muccioli GG Lambert DM Wouters J 《Bioorganic & medicinal chemistry letters》2006,16(18):4772-4776
Substituted (thio)hydantoins (2-thioxoimidazolidinones and imidazolidinediones) were reported as new potential reversible inhibitors of fatty acid amide hydrolase (FAAH). Their binding mode to FAAH was explored to rationalize their activity and give idea to design highly active inhibitors. Starting from the crystal structure of one of these molecules, docking studies provide us with rational basis for the design of new inhibitors within the thiohydantoin family. 相似文献
87.
Aggregated and highly phosphorylated tau protein is a pathological hallmark of Alzheimer's disease (AD) and other tauopathies. We identified motifs of alternating polar and apolar amino acids within the microtubule-binding repeats of tau which were interrupted by small breaking stretches. Minimal mutation of these breaking sequences yielded a unique instantly aggregating tau mutant containing longer stretches of polar/apolar amino acids without losing its microtubule-binding capacity. These modifications produced rapid aggregation and cytotoxicity with accompanying occurrence of pathologic tau phosphoepitopes (AT8, AT180, AT270, AT100, Ser(422), and PHF-1) and conformational epitopes (MC-1 and Alz50) in cells. Similar to pathological tau in the pretangle state, toxicity appeared to occur early without the requirement for extensive fibril formation. Thus, our mutant protein provides a novel platform for the investigation of the molecular mechanisms for toxicity and cellular behavior of pathologically aggregated tau proteins and the identification of its interaction partners. 相似文献
88.
de Ruyck J Durisotti V Oudjama Y Wouters J 《The Journal of biological chemistry》2006,281(26):17864-17869
Isopentenyl-diphosphate (IPP):dimethylallyl diphosphate isomerase is a key enzyme in the biosynthesis of isoprenoids. The mechanism of the isomerization reaction involves protonation of the unactivated carbon-carbon double bond in the substrate, but identity of the acidic moiety providing the proton is still not clear. Multiple sequence alignments and geometrical features observed in crystal structures of complexes with IPP isomerase suggest that Tyr-104 could play an important role during catalysis. A series of mutants was constructed by directed mutagenesis and characterized by enzymology. Crystallographic and thermal denaturation data for Y104A and Y104F mutants were obtained. Those data demonstrate the importance of residue Tyr-104 for proper folding of Escherichia coli type I IPP isomerase. 相似文献
89.
Urban garden soils are a potential repository of heavy metal pollution, resulting from either anthropogenic or geogenic origin. The efficiency of phytoextraction was compared on two garden soils with the same texture and topsoil Pb concentration (170 mg kg?1) but not the same origin: one geogenic, the other anthropogenic. Two varieties of Brassica juncea were tested with citric acid (25 mmol kg?1) or ethylenediaminetetraacetic acid (EDTA, 2.5 mmol kg?1). Geogenic Pb was shown to be two times less available than anthropogenic Pb, as a result of which the phytoextraction efficiency was reduced by 59%. Pb mobility in the soil was solely enhanced with EDTA, which increased the Pb concentration in shoots of B. juncea by between 14 and 26 times in comparison with the control. The highest Pb concentration in shoots still remained low, however (i.e., 45 mg kg?1 dry weight). Regardless of the chelates introduced, B. juncea 426308 accumulated roughly twice as much lead as B. juncea 211000, but only for the anthropogenic contaminated soil. Under these conditions, the amount of Pb accumulated by B. juncea (even when assisted by EDTA) was not high enough to envision achieving soil clean-up within a reasonable time frame. 相似文献
90.